Comparative metabolomics reveal the participation of soybean unique rhizosphere metabolites in susceptibility and resistance of host soybean to Phytophthora sojae

Aims Phytophthora root rot (PRR) of soybean is a destructive soil-borne disease caused by Phytophthora sojae ( Ps ). Isoflavonoids daidzein and genistein in soybean root exudates mediate soybean susceptibility. However, no attention has been paid to the inhibitors in the resistant soybean root exuda...

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Bibliographic Details
Published in:Plant and soil 2022-11, Vol.480 (1-2), p.185-199
Main Authors: Zhang, Zhuoqun, Bi, Xiangqi, Du, Xiuming, Liu, Haixu, An, Tai, Zhao, Yifan, Yu, Han, Chen, Yufei, Wen, Jingzhi
Format: Article
Language:English
Subjects:
Agriculture
Analysis
Antibiotics
Biomedical and Life Sciences
Comparative analysis
Daidzein
Diseases and pests
Ecology
Ethanol
Exudates
Exudation
Flavones
Genistein
Growth
Hydroperoxylinoleic acid
Hydroxycinnamic acid
Identification and classification
Inoculation
Isoflavonoids
Life Sciences
Mannan
Metabolites
Metabolomics
Ornithine
Paromomycin
Phytophthora sojae
Plant Physiology
Plant Sciences
Research Article
Rhizosphere
Root rot
Soil ecology
Soil Science & Conservation
Soil-borne diseases
Soils
Soybean
Soybeans
Susceptibility
Vanillic acid
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Summary:Aims Phytophthora root rot (PRR) of soybean is a destructive soil-borne disease caused by Phytophthora sojae ( Ps ). Isoflavonoids daidzein and genistein in soybean root exudates mediate soybean susceptibility. However, no attention has been paid to the inhibitors in the resistant soybean root exudates. This study aims to identify the metabolites which participate in host susceptibility and resistance in soybean root exudates. Methods The metabolomes of rhizosphere soil of a pair soybean near-isogenic lines Williams ( rps , susceptible) and Williams 82 ( Rps 1k, resistant) were analyzed by LC–MS. The effects of rhizosphere soil on Ps were determined. The expression levels of core metabolites synthetase related genes were quantified by qRT-PCR. Results Clear differences were found in the rhizosphere metabolites between susceptible Williams and resistance Williams 82. Higher accumulations of daidzein and genistein were observed in susceptible Williams. Other abundant flavones and isoflavonoids closely related to daidzein and genistein likely participate in the susceptibility of Williams to Ps . Antibiotics mannan, cis-β-D-glucosyl-2-hydroxycinnamate, vanillic acid and 2-(4-hydroxyphenyl) ethanol are likely related to pre-existing resistance of Williams 82 to Ps . The rhizosphere metabolites altered greatly under Ps inoculation. Weak and strong induced resistance to Ps were observed in Williams and Williams 82. Less flavones and isoflavonoids, and abundant 13-L-hydroperoxylinoleic acid are likely related to the weak induced resistance of Williams to Ps . While 9,10,13-TriHOME, 9,12,13-TriHOME, N 2 -acetyl-L-ornithine, paromomycin and 2- (4-hydroxyphenyl) ethanol are likely related to the induced resistance of Williams 82 to Ps . Additionally, there were other abundant metabolites in Williams and Williams 82 rhizosphere. Functions of these metabolites in pre-existing and induced resistance to Ps need to be further studied. Conclusions Different core metabolites in the rhizosphere soil participate in the susceptibility and resistance of host soybean to Ps.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-022-05571-6